Saccharomyces cerevisiae

92 known processes

MBA1 (YBR185C)

Mba1p

MBA1 biological process predictions


Filter by process size:
Biological processGO term IDProcess sizeProbabilityFunc Analog Org
protein complex biogenesisGO:00702713140.468
protein complex assemblyGO:00064613020.227
oxidation reduction processGO:00551143530.178
mitochondrion organizationGO:00070052610.141
cellular amino acid metabolic processGO:00065202250.109
positive regulation of mitochondrion organizationGO:0010822160.101
single organism catabolic processGO:00447126190.098
energy derivation by oxidation of organic compoundsGO:00159801250.085
oxoacid metabolic processGO:00434363510.067
single organism membrane organizationGO:00448022750.062
posttranscriptional regulation of gene expressionGO:00106081150.056
regulation of cellular component organizationGO:00511283340.056
regulation of cellular protein metabolic processGO:00322682320.055
mitochondrial translationGO:0032543520.049
positive regulation of cellular biosynthetic processGO:00313283360.048
cellular respirationGO:0045333820.038
sulfur compound metabolic processGO:0006790950.036
positive regulation of protein metabolic processGO:0051247930.034
generation of precursor metabolites and energyGO:00060911470.033
protein processingGO:0016485640.033
cellular response to chemical stimulusGO:00708873150.032
regulation of protein metabolic processGO:00512462370.032
carboxylic acid metabolic processGO:00197523380.032
positive regulation of biosynthetic processGO:00098913360.030
positive regulation of translationGO:0045727340.029
regulation of organelle organizationGO:00330432430.026
response to chemicalGO:00422213900.026
positive regulation of macromolecule metabolic processGO:00106043940.026
nucleoside phosphate metabolic processGO:00067534580.026
protein localization to organelleGO:00333653370.026
positive regulation of organelle organizationGO:0010638850.024
positive regulation of cellular protein metabolic processGO:0032270890.023
purine containing compound metabolic processGO:00725214000.023
positive regulation of cellular component organizationGO:00511301160.022
protein maturationGO:0051604760.021
regulation of mitochondrial translationGO:0070129150.021
positive regulation of gene expressionGO:00106283210.021
purine ribonucleotide metabolic processGO:00091503720.020
response to oxidative stressGO:0006979990.020
cellular lipid metabolic processGO:00442552290.020
aerobic respirationGO:0009060550.019
regulation of translationGO:0006417890.019
organonitrogen compound catabolic processGO:19015654040.018
positive regulation of macromolecule biosynthetic processGO:00105573250.018
small molecule biosynthetic processGO:00442832580.017
cellular response to oxidative stressGO:0034599940.017
purine nucleoside metabolic processGO:00422783800.017
nucleobase containing small molecule metabolic processGO:00550864910.016
nucleotide metabolic processGO:00091174530.016
organonitrogen compound biosynthetic processGO:19015663140.016
carbohydrate derivative transportGO:1901264270.015
organic acid metabolic processGO:00060823520.015
membrane organizationGO:00610242760.015
regulation of mitochondrion organizationGO:0010821200.015
peroxisome organizationGO:0007031680.014
sexual reproductionGO:00199532160.014
mitochondrial genome maintenanceGO:0000002400.014
carboxylic acid catabolic processGO:0046395710.013
cellular amide metabolic processGO:0043603590.013
purine nucleotide metabolic processGO:00061633760.013
organic acid biosynthetic processGO:00160531520.012
negative regulation of nitrogen compound metabolic processGO:00511723000.012
regulation of cell cycleGO:00517261950.011
negative regulation of gene expressionGO:00106293120.011
monocarboxylic acid metabolic processGO:00327871220.011
lipid metabolic processGO:00066292690.011
establishment of protein localization to organelleGO:00725942780.011
proteolysisGO:00065082680.010
cellular ketone metabolic processGO:0042180630.010
multi organism processGO:00517042330.010

MBA1 disease predictions

Disease predictions are made from cross-annotation of human disease genes to the identified functional analogs in yeast and predicted with the yeast functional network.

DiseaseDO term IDSizeProbabilityFunc Analog Org